Jesse Beisegel scite author profile

Jesse Beisegel

5Publications

64Citation Statements Received

115Citation Statements Given

How they've been cited

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123

115

Affiliations

Brandenburg University of Technology Cottbus-Senftenberg

Publications

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Avoidable Vertices and Edges in Graphs

Beisegel

Chudnovsky

Gurvich

et al. 2019

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A vertex in a graph is simplicial if its neighborhood forms a clique. We consider three generalizations of the concept of simplicial vertices: avoidable vertices (also known as OCF -vertices), simplicial paths, and their common generalization avoidable paths, introduced here. We present a general conjecture on the existence of avoidable paths. If true, the conjecture would imply a result due to Ohtsuki, Cheung, and Fujisawa from 1976 on the existence of avoidable vertices, and a result due to Chvátal, Sritharan, and Rusu from 2002 the existence of simplicial paths. In turn, both of these results generalize Dirac's classical result on the existence of simplicial vertices in chordal graphs.We prove that every graph with an edge has an avoidable edge, which settles the first open case of the conjecture. We point out a close relationship between avoidable vertices in a graph and its minimal triangulations, and identify new algorithmic uses of avoidable vertices, leading to new polynomially solvable cases of the maximum weight clique problem in classes of graphs simultaneously generalizing chordal graphs and circular-arc graphs. Finally, we observe that the proved cases of the conjecture have interesting consequences for highly symmetric graphs: in a vertex-transitive graph every induced two-edge path closes to an induced cycle, while in an edge-transitive graph every three-edge path closes to a cycle and every induced three-edge path closes to an induced cycle. * An extended abstract of this work is

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Recognizing Graph Search Trees

Beisegel

Denkert

Köhler

et al. 2019

Electronic Notes in Theoretical Computer Science

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Graph searches and the corresponding search trees can exhibit important structural properties and are used in various graph algorithms. The problem of deciding whether a given spanning tree of a graph is a search tree of a particular search on this graph was introduced by Hagerup and Nowak in 1985, and independently by Korach and Ostfeld in 1989 where the authors showed that this problem is efficiently solvable for DFS trees. A linear time algorithm for BFS trees was obtained by Manber in 1990. In this paper we prove that the search tree problem is also in P for LDFS, in contrast to LBFS, MCS, and MNS, where we show N P-completeness. We complement our results by providing linear time algorithms for these searches on split graphs. * The work of this paper was done in the framework of a bilateral project between Brandenburg

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The Recognition Problem of Graph Search Trees

Beisegel¹,

Denkert²,

Köhler³

et al. 2021

SIAM J. Discrete Math.

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Edge Elimination and Weighted Graph Classes

Beisegel

Chiarelli

Köhler

et al. 2020

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On the End-Vertex Problem of Graph Searches

Beisegel¹,

Denkert²,

Köhler³

et al. 2019

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Jesse Beisegel

Avoidable Vertices and Edges in Graphs

Recognizing Graph Search Trees

The Recognition Problem of Graph Search Trees

Edge Elimination and Weighted Graph Classes

On the End-Vertex Problem of Graph Searches

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